Solve with İntegration method betwean A B
4. (a) Solve y' + 4xy = x using the integration factor method. (b) Solve the differential equation in (a) again using separation of variables.
Use the double integration method to solve for the deflection equations in terms of the coordinate system shown. P8.34 L/2 L/2 Problem 8.34
Q3 ) Use numerical integration with n=3 to determine the following integration then solve it analytically using a proper method of integration and compare results. Inx dx
Using the integration method, solve for the deflection and slope at x=2. E is given as 200 Gpa and I=65*10^6 mm^4 1 10KN X 3m
For Problems 8.31 through 8.38 use the double integration method to solve for the deflection equations in terms of the coordinate systerm shown P8.36 EI Problem 8.36
2. Use the double integration method to solve for the requested quantities. (Use whatever coordinate system you desire for the generation of the equations. You will then use your equations to solve for the quantities at the specific locations.) (20pts) Determine for 6, and where E-1.99-10° psi and 950 in' 1 klf EI 15 ft 5 ft 3. Use the virtual work method to determine the deflection of each of the joints indicated. E ksi. Find ΔΕΧ and Bar areas:...
Q3 ) Use numerical integration with n-3 to determine the following integration then solve it analytically using a proper method of integration and compare results. InLX dx 04) Used double integral find the area between the following curves y = x2y = 2 - x (5) Use shell method find the volume of the solid generated by revolving the curves y=x", y = 2 - x?, about y axis
2. Use the double integration method to solve for the requested quantities. (Use whatever coordinate system you desire for the generation of the equations. You will then use your equations to solve for the quantities at the specific locations.) (20pts) Determine for 6, and Ac where E 1.99. 106 psi and I-950 in' 1 klf El 15 ft 5 ft 3. Use the virtual work method to determine the deflection of each of the joints indicated. E 29,000 ksi. Find...
Structural analysis 2. Use the double integration method to solve for the requested quantities. (Use whatever coordinate system you desire for the generation of the equations. You will then use your equations to solve for the quantities at the specific locations.) (20pts) Determine for θ, and A, where E-1.99-10. psi and 1-950 in' l klf El 15 ft 5 ft